ELECTRICAL & COMPUTER ENGINEERING
FIRST YEAR
Fall
Academic Year: 2007-2008
Winter
Spring
SECOND YEAR
Fall
Winter
Spring
MTH 231
MTH 111 or MTH 251
MTH 231 Co-Req
ECE 111
ECE 112
or
or
ENGR 111
ENGR 112
MTH 111
Chemistry
Intro to
Computer Sci. II
‘Java’
Intro to
Computer Sci. I
‘Java’
MTH 251 & MTH 252
MTH 112
CH 201/221
CS 162
CS 161
MTH 256
MTH 231 or MTH 251 Co-Req
MTH 231
ECE 271
ENGR 201
ENGR 202
ENGR 203
Discrete
Math
Digital Logic
Design
Electrical
Fundamentals
Electrical
Fundamentals
Electrical
Fundamentals
MTH 112
MTH 252
MTH 254
MTH 251
MTH 252
MTH 254
MTH 256
MTH 306
Differential
Calculus
Integral
Calculus
Vector
Calculus
Differential
Equations
Matrix & Power
Series Methods
MTH 251
WR 121
English
Composition
Perspectives
Western Culture
MTH 252
MTH 254
Lifetime
Fitness
e.g. HHS 231 +
Lab
MTH 255
Vector Calculus II
WR 121
PH 211
PH 212
PH 213
WR 327
Physics
w/Calculus
Physics
w/Calculus
Physics
w/Calculus
Technical
Report Writing
ECE 112, ENGR 201 or electronics experience
Rev. 8/2007
CS 261
Data Structures
in ‘C’
ECE 272*
Digital Logic
Design Lab
COMM
111/114
Speech
Shaded courses are required by the college prior to admission to the Professional Engineering Program
Shaded courses are additional prerequisites for third-year courses.
* Need working TekBot from ECE 112, or ECE 199 Tekbot concurrent okay
ELECTRICAL & COMPUTER ENGINEERING
Additional courses not requiring admission to the Professional Engineering Program
ENGR 390
Engineering
Economics
Perspectives
Perspectives
Cultural Diversity
Literature & Arts
Synthesis
Contemporary
Global Issues
Perspectives
Social Processes
& Institutions
Difference,
Power &
Discrimination
Bioscience
Elective
Synthesis
Science,
Technology, &
Society
NOTES:
1. MECOP admission – all
and
shaded courses plus CS 261.
2. With advisor approval, CH 121 + 122 + 123 may be substituted for the chemistry series CH 201 + 202 or CH 221 + 222.
3. CS 261 must be taught with the C programming language. If not, the C language will have to be learned separately prior to ECE 375,
e.g. OSU’s CS 151, Introduction to C Programming.
4. Credits to graduate = 180.
Rev. 8/2007
ELECTRICAL & COMPUTER ENGINEERING
Junior Year Technical Curriculum
Fall
Winter
Dependent on Track
Spring
MTH 255 & ENGR 203
ENGR 203
ENGR 202, ENGR 211, ECE 390
ECE 390
ECE 322
ECE 323
Electronics
Digital Electronics
Electric & Magnetic
Fields
(fall term)
CS 261 in ‘C’ & ECE 271
ENGR 201
ECE 271/2
MTH 256, ENGR 203
ECE 375
ECE 391X
Comp Structures &
Assembly Lang
Programming
Electromagnetic
Fields & Trans
Lines
ENGR 203, MTH 256
MTH 254, ECE 351
ECE 351
Signals & Systems I
CS 261 & ECE 375
ECE 317
ECE 372
Into to Computer
Networks
MTH 306, ECE 351
ECE 352
ECE 353
Signals & Systems
II
Intro to Prob. &
Random Signals
NOTES:
1. MECOP students take fall and winter courses in their junior year.
2. ECE 271/272 is offered fall/spring terms.
3. ECE 323 is offered fall/spring terms.
4. ECE 351 is offered fall/winter terms;
5. ECE 352 and ECE 353 are offered winter/spring terms.
6. ECE 375 is offered fall/winter terms.
7. ECE 391X and ECE 331 are offered winter terms.
8. ECE 271/2 is a hard prerequisite to ECE 375.
Rev. 8/2007
ECE 331
Electromech Energy
Conversion
(winter term)
Electronic Materials
& Devices
(fall term)
MTH 254 Co-Req
CS 311
Operating Systems I
(fall, winter,
or summer term)
PH 211
ENGR 211
ENGR 212
Statics
Dynamics
NOTES:
1. ENGR 211, ENGR 212 and ECE 331 are useful for Energy
Systems, Robotics & Control, and Fundamentals of
Engineering (FE) Exam preparation.
2. ECE 317 is for Materials & Devices, Integrated Circuits, High
Frequency Systems and Applied Electromagnetics,
Optoelectronics, and FE Exam preparation.
3. ECE 390 is useful for all except Computer & Network.
4. CS 311 is useful for Computer & Network.